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Leishmania

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Title: Leishmania


1
Leishmania
www.sanger.ac.uk/Info/Press/2007/070617.shtml
2
First exam
Total number of points 70 (we used 68 as
total) Point average 52 First exam is 30 of
grade (we will use total points over all exams
(not letter grade) to calculate the final grade.
3
Leishmania
  • Life cycle and transmission ecology of Leishmania
  • Three clinical syndromes caused by these
    parasites
  • Understanding host-pathogen interaction at the
    molecular level - LPG and its role for survival
    in the insect vector

4
(No Transcript)
5
The phylum Kinetoplastida
  • Group of protozoans at the basis of the
    eukaryotic tree
  • Move using a single flagellum
  • Harbor name-giving mitochondrion with large
    genome which is always associated with the basal
    body of the single flagellum
  • All kinetoplastids are parasites
  • Trypanosoma Leishmania are the medically
    important and best studied genera in this group
    (but a huge variety of animals and even plants
    harbor kinetoplastid parasites)

6
Leishmania belong to the order kinetoplastida
  • Different life cycle stages in this group show
    characteristic morphological differences and are
    distinguished by the position of the basal body
    within the cell
  • However, the differences are not limited to
    morphology
  • Different stages express different set of genes
    from their genomes which adapt their surface,
    internal structure and metabolism to survival in
    insect or mammalian hosts

trypomastigote
epimastigote
promastigote
amastigote
7
Leishmania parasites exist as pro- and amastigotes
  • The parasite lives in the digestive tract of
    sandflies as extracellular promastigote
  • In the mammalian host parasites multiply as
    intracellular amastiogotes

8
procyclics and metacyclics
  • Infected macrophages are taken up with the blood
    meal and amastigotes are released by digestion,
    transform into procyclic promastigotes and attach
    to the midgut epithelium
  • Attached promastigotes divide rapidly
  • Metacyclic (infective) promastigotes cease
    replication, detach and pass forward into the
    pharynx from where they are regurgitated into the
    bite site

(detached)
(attached)
9
Leishmania infects and thrives in macrophages
  • Within its mammalian host Leishmania infects
    macrophages and replicates as intracellular
    amastigoe
  • Macrophages are professional phagocytic cells
    and an important part of the innate immune system
    (they also play a role in initiating the adaptive
    response by antigen presentation)
  • The parasite invades its host cell passively by
    triggering phagocytosis

10
Leishmania infects and thrives in macrophages
Uptake of Leishmania amazonensis metacyclic
promastigote by a mouse macrophage. The parasite
is phagocytosed with the cell body entering first
and through the formation of a long tubular
pseudopod. Images were captured every 0.5 seconds
over the course of 367 seconds. Courret et al.
2002 http//jcs.biologists.org/cgi/content/full/11
5/11/2303
11
Leishmania infects and thrives in macrophages
Phagocytosis of a Leishmania amazonensis
metacyclic promastigote by a mouse macrophage.
The parasite binds to the macrophage plasma
membrane by the tip of the flagellum. It then
turns around and is finally ingested via the cell
body. Images were captured every 0.5 seconds over
the course of 125 seconds. Courret et al. 2002
http//jcs.biologists.org/cgi/content/full/115/11/
2303
12
Leishmania infects and thrives in macrophages
  • Leishmania stimulates this process by binding
    elements of the complement system to its surface
  • Binding of complement can destroy pathogens but
    also tags them for phagocytosis (opsonisation
    pathogen bound 3Cb is a potent eat me signal
    for macrophages neutrophils)
  • However, the parasite prevents the formation of
    the fully functional membrane attack complex
  • A molecule on the surface of the parasite seems
    to be responsible both for complement activation
    and prevention of the final attack

13
Leishmania infects and thrives in macrophages
  • Once a pathogen is taken up by phagocytosis the
    phagosome usually fuses with primary lysosomes to
    form secondary lysosomes
  • Within secondary lysosomes pathogens are killed
    and digested by the action of lytic enzymes and
    an acidic environment produced by membrane proton
    pumps
  • Additional mechanisms of killing include the
    generation of oxygen radicals (biological
    bleach)

14
Leishmania infects and thrives in macrophages
  • Macrophages are important microbe killers,
    however several pathogens have found ways to
    escape killing
  • Trypansoma cruzi -- induces phagocytosis but then
    escapes into the cytoplasm
  • Toxoplasma -- active invasion, parasitophorous
    vacuole is never part of the endocytic pathway
  • Mycobacterium tuberculosis -- induce phagocytosis
    and block lysosomal maturation
  • Leishmania ...

15
Leishmania infects and thrives in macrophages
  • Leishmania just doesnt seem to care
  • Amastigotes thrive in what looks like a fully
    matured lysosome with acidic pH and abundant
    lysosomal hydrolases
  • Amastigotes rapidly divide and will infect new
    macrophages after rupture of host cell
  • The dense surface coat covering Leishmania seems
    to protect the parasite from the action of the
    lytic enzymes
  • However, with help from T cells macrophages can
    be stimulated to kill the parasite

16
A TH1 response is required for parasite control
and healing
  • Stimmulation with different cytokines leads to
    the development of two types of T-cells
    specialized for different immune responses
  • Th1 and Th2 strongly downregulate each other
  • This polarization has important consequences for
    the downstream response and can spell life or
    death
  • Non healing Leishmania infections are
    characterized by a strong TH2 response (remember
    this was the response useful to get rid of worms
    by antibody and hypersensitivity)
  • Healing infections are characterized by TH1
  • The parasites seems to manipulate this balance in
    his favor, we dont understand yet how that is
    done

17
Leishmania distribution (all species)
18
American soldiers contracted Leishmaniasis in
Iraq Afghanistan
A REGION INFLAMED Hundreds of U.S. Troops
Infected by Parasite Borne by Sand Flies, Army
Says By DONALD G. MCNEIL JR. Published December
6, 2003 Hundreds of American troops in Iraq have
been infected with a parasite spread by biting
sand flies, and the long-term consequences are
still unknown, Army doctors said Friday
Skin Disease Strikes Iraqi Children Thursday,
February 14, 2008 By MARIA CHENG, AP Medical
Writer LONDON At least 275 children in
southern Iraq have been infected with a
disfiguring skin disease, an outbreak some health
officials are blaming on the war's devastating
effect on the public health system.
19
Leishmania is transmitted by sand flies
(Phlebotomidae)
  • Sand flies are minute diptera (they are more
    closely related to mosquitoes than real flies
    and only females bite)
  • Only mosquito nets with fine meshwork hold them
    off
  • In the wild sand flies often breed in rodent
    burrows
  • Old world Phlebotomus, new world Lutzomya
  • Can also transmit Bartonella bacilliformis and
    Papatsi virus

20
Ecology of old world Leismaniasis
  • Close contact of humans and their domestic
    animals can provide optimal conditions for sand
    flies and Leishmania transmission (stables
    provide good breeding ground for larvae)
  • In urban environments infection is mostly human
    to human
  • In rural areas Leishmaniasis can be a zoonosis
  • Infection in dogs is quite frequent in the
    Mediterranean

21
Ecology of new world leishmaniasis
  • In the new world most people get infected while
    working or hunting in the forest
  • Here wild animals including rodents, monkeys and
    sloths provide a reservoir for the parasite
  • A transmission pattern within a population of
    wild animals that result in occasional infection
    of humans is called sylvatic

22
A variety of species and species complexes causes
disease in humans
23
Three syndromes associated with Leishmania
infection in humans
24
Visceral Leishmaniasis or Kala Azar
  • Systemic infection of reticulo-entdothelial cells
    (mostly macrophages) throughout multiple internal
    organs and the blood

25
Visceral Leishmaniasis
http//www.who.int/tdr/media/video/b-rolls.htm
26
Kala Azar - Visceral Leishmaniasis
  • Caused by the L. donovani complex
  • General infection of macrophages in the entire
    RES
  • Weeks to months incubation period
  • The lead symptom is abdominal swelling due to
    hepato- and splenomegaly
  • High fever. Fever often oscillates with a peak
    every second day
  • Progressive drastic weight loss (kachexia)
  • Darkening of the skin
  • Mortality of untreated disease 75-95

27
Post Kala-Azar Dermal Leishmaniasis
  • Sequel of visceral leishmaniasis which may
    manifest years after successful treatment and
    resolution of Kala Azar.
  • Dermal lesions may contain parasites in great
    numbers

28
Cutaneous Leishmaniasis
  • Infection remains restricted to the initial site
    of infection (the bite site)

29
Cutaneous Leishmaniasis
http//www.who.int/tdr/media/video/b-rolls.htm
30
Cutaneous Leishmaniasis is usually self-limiting
  • Old world oriental sore is caused by parasites of
    the L. tropica complex. (similar disease in the
    new world is caused by L. mexicana)
  • A chronic but self-limiting dry ulceration at the
    site of the bite
  • Ulceration starts months after infection
  • Parasites are not found outside the lesion
  • A granuloma is formed which finally leads to
    healing leaving a depressed scar
  • Nearly absolute resistance to reinfection
  • Inoculation to vaccinate has long been practiced
    in the middle east

31
Espundia or mucocutaenous leishmaniasis
  • Caused by L. braziliensis
  • 20 of infected patients develop ulcers of the
    oral and nasal mucosa

32
Espundia or mucocutaenous leishmaniasis
  • Caused by L. braziliensis
  • 20 of infected patients develop ulcers of the
    oral and nasal mucosa
  • Progression of the ulceration is slow but steady,
    ultimately destroying all soft parts of the
    nose, the lips, and the soft palate
  • Death can occur through secondary bacterial
    infection

33
Diagnosis Treatment
  • Gold standard of diagnosisis demonstration of
    parasites in the blood or lymph (kala azar) or in
    scrapings of the ulcer (cutaneous versions)
  • Treatment for all forms of Leishmaniasis is not
    satisfactory at the moment
  • Visceral Leishmaniasis (pentavalent antimonials)
    cutaneous (amphotheracin B)
  • The available drugs have significant side effects
    and resistance has emerged (pentavalent
    antimonials)
  • HIV coinfection further complicates treatment
  • New drugs are urgently needed
  • One of the new hopes includes paramomycin an old
    antibiotic which has shown promising activity in
    clinical studies done by the Institute of One
    World Health (http//www.oneworldhealth.org)

34
procyclics and metacyclics
35
LPG and its interactions with the sand fly midgut
  • Promastigotes attach and detach to the midgut
    epithelium
  • Attachment helps them to remain in the insect gut
    when the blood meal is passed
  • However, later they need to detach to move to the
    pharynx and proboscis for infection
  • How is this accomplished at the molecular level?

36
Lipophosphoglycans play important roles in
Leishmania pathogenesis
  • Lipophosphglycan or LPG is the dominant molecule
    on the surface of Leishmania
  • LPG is not a protein but a glycolipid
  • The molecule is anchored in the membrane by a
    lipid to which a long chain of highly hydrophilic
    sugar-phosphate repeats are attached
  • The structure of LPG changes over the life cycle
    to adapt to various functions
  • LPG is a pathogenesis factor in the mammalian
    host and important for the life cycle within the
    sandfly

37
Structural modification of LPG during the sand
fly cycle
  • LPG is structurally modified during the
    developmental process of metacylogenesis
    (parasites decide to stop replicating and begin
    to pre-adjust to the mammalian host)
  • LPG in metacylics has 2-3 times the number of
    repeat units
  • Sidechains with terminal galactose are
    downregulated and the remaining galactose
    residues are capped with another terminal sugar
    (arabinopyranose)
  • Are these chemical changes responsible for the
    pathogens attachment phenotype?

38
Only LPG from procyclics attaches to the midgut
  • Phosphoglycans were isolated from procyclics
    (those that attach) and metacyclics (those that
    detach and infect) and were labeled with a dye
    (resulting in fluorescence seen as white in the
    lower panels to the right)
  • Opened sandfly midguts were incubated with PG
    from procyclics (A/B) and metacyclics (C/D) and
    detected with an antibody
  • Only procyclic phosphoglycan binds to the midgut

39
LPG binds to the microvilli of the sandfly midgut
epithelium
OK, LPG appears to be the molecule on the
parasite responsible for the attachment of
parasites to the sandfly midgut, but what kind
of host molecule does it bind to?
40
LPG binds to a species specific galectin in the
sandfly midgut
  • A gene for an abundantly expressed galactose
    binding protein or lectin (galectin) was
    identified in a sandfly sequencing project
  • A specific antibody against the protein encoded
    by this gene reacts with the midgut of the
    sandfly species from which it was isolated (but
    not from other species)
  • High resolution microscopy shows that the
    protein(red in lower panel) is found on the
    luminal side of the midgut epithelium

Cell 119329-41
41
LPG binds to a species specific galectin in the
sandfly midgut
  • Galectin (labeled with a fluorescent dye) binds
    specifically to procyclic Leishmania major
    parasites
  • However little binding is detected when incubated
    with metacyclic parasites (the stage that
    detaches and moves to the the proboscis to infect
    the mammalian host, V1met)
  • There is little binding to a mutant parasite
    (Spock) which lacks LPG
  • (B lower) anti-galectin also blocks binding of
    procyclic parasites to the midgut epithelium

Cell 119329-41
42
Modification of LPG modulate interaction of the
parasite and midgut galectin
43
Summary
  • Leishmania species cause three clinical syndromes
    depending on the spread of the infection in the
    body
  • Leishmania provoke phagocytosis by macrophages
    and develop intracellular in an fully acidified
    lysosome
  • LPG-galectin interaction and modification of LPG
    regulate attachment and detachment of parasites
    in the sandfly host
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